Vehicle Front-Part Structure
A vehicle front-part structure comprises a radiator support upper (5) which extends in a vehicle width direction in a vehicle front, a cowl (9) which is coupled to an apron upper member (2) provided on a side in the vehicle width direction and extending in a vehicle lengthwise direction, and which is located to rearward of the vehicle (1) further than the radiator support upper, and a hood framework (21) which constitutes a part of the hood inner panel (17). The hood framework extends in the vehicle lengthwise direction, the hood framework is disposed between the radiator support upper and the cowl such that at least a part of a front end-face (21a) faces the radiator support upper and at least a part of a rear end-face (21b) faces the cowl.
The present invention relates to a vehicle front-part structure.
BACKGROUND ARTConventionally, in some of the vehicle front-part structures, projection portions projected toward the outside in a vehicle width direction are provided on a radiator support sides that support both sides of a radiator, a front bumper reinforcement is attached through crash boxes onto vehicle front sides of the projection portions, and front side members are coupled onto vehicle rear sides of the projection portions. When in a slight degree of crash, a crash load is absorbed by the front bumper reinforcement and the crash boxes (Japanese Patent Application Laid-Open No. 2001-219869).
In the above vehicle front-part structure, a radiator support upper that supports the upper portion of the radiator has the structure in which the crash load cannot sufficiently be received, and a member which receives the crash load does not exist in an upper portion of a vehicle front. Therefore, a distribution of the crash load acting on the vehicle front-part is biased in a lower portion of the vehicle front where the front bumper reinforcement and the like are located, and load uniformity is lost in the vehicle front in the front crash.
DISCLOSURE OF THE INVENTIONIn view of the foregoing, one object of the present invention is to provide a vehicle front-part structure which can receive the crash load in the crash even in the upper portion of the vehicle front.
To attain the above object, according to one aspect of the present invention, there is provided a vehicle front-part structure comprising: a radiator support upper which extends in a vehicle width direction in a vehicle front; a vehicle upper framework member which is coupled to an apron upper member provided on a side in the vehicle width direction and extending in a vehicle lengthwise direction, and which is located to rearward of the vehicle further than the radiator support upper; and a hood framework which constitutes a part of the hood framework member, the hood framework extending in the vehicle lengthwise direction, the hood framework being disposed between the radiator support upper and the vehicle upper framework member such that at least a part of a front end-face faces the radiator support upper and at least a part of a rear end-face faces the vehicle upper framework member.
According to the above vehicle front-part structure, when in the front crash of the vehicle, the crash load is transmitted from the radiator support upper to the vehicle upper framework member through the hood framework. Then, the crash load is transmitted from the vehicle upper framework member to the apron upper member and is further transmitted to rearward of the vehicle. Therefore, the crash load applied to the vehicle upper portion can be efficiently transmitted to rearward of the vehicle. Furthermore, in the case that an engine room is opened by operating a hood, the hood framework moves to the upside of the vehicle along with the hood, so that the hood framework does not obstruct maintenance of the engine or the like. The whole of the front end-face of the hood framework may face the radiator support upper, and the whole of the rear end-face of the hood framework may face the vehicle upper framework member. In this case, the crash load can be transmitted more securely when compared with the mode in which a part of the front end-face faces the radiator support upper and a part of the rear end-face faces the vehicle upper framework member. In the concept of the end face of the hood framework according to the present invention, there is included not only the mode in which the material exists in all the end face (for example, the end face formed by a solid-core member) but also the mode in which the material does not exist in all the end face (for example, the end face made of H-shaped or C-shaped steel, and the end face formed by a hollow member such as a pipe). Accordingly, it is sufficient that the material facing the radiator support upper and the vehicle upper framework member exist in the hood framework.
In one embodiment of the vehicle front-part structure according to the present invention, any member may be employed as the vehicle upper framework member that receives the crash load through the hood framework, as long as the member is coupled to the apron upper member with a predetermined strength. For example, the vehicle upper framework member may be a cowl extending in the vehicle width direction at a lower end of a wind shield, or may be a suspension tower. According to these embodiments, the crash load is transmitted from the radiator support upper to the cowl or the suspension tower through the hood framework, so that the crash load applied to the vehicle upper portion can be efficiently transmitted to rearward of the vehicle. The vehicle upper framework member may be a dash panel which partitions the engine room and the cabin.
In the case that the vehicle upper framework member is the suspension tower, a load transmission member may be provided between the suspension tower and a cowl extending in the vehicle width direction at a lower end of a wind shield. If the distance between the radiator support upper and the cowl is lengthened, a length of the member disposed between the radiator support upper and the cowl is increased, thereby raising the possibility that the bending moment is generated. If the bending moment is generated in the member, transmission efficiency of the crash load becomes worsened. According to the above embodiment, the crash load transmitted in the hood framework is transmitted to the cowl through the suspension tower and further thorough the load transmission member. Accordingly, the hood framework can be shortened when compared with the case in which the hood framework is disposed between the radiator support upper and the cowl, so that the generation of the bending moment is suppressed to thereby efficiently transmit the crash load to rearward of the vehicle.
In one embodiment according to the present invention, the vehicle front-part structure may comprise a front-part constraint device which has: a projection which is provided on one of the front end-face of the hood framework and the radiator support upper; and a recess which is provided on the other of the front end-face of the hood framework and the radiator support upper, and the hood framework and the radiator support upper may be able to constrain each other by accommodating the projection in the recess. According to this embodiment, the hood framework and the radiator support upper are constrained by the front-part constraint device, so that occurrence, in which relative position displacement is generated between the hood framework and the radiator support upper and these members miss each other so as to obstruct the load transmission, can be avoided when in the front crash of the vehicle. With respect to timing at which the hood framework and the radiator support upper are constrained by the front-part constraint device, it is sufficient that these members are constrained at the time of crash, and those members may also be constrained during the time except for the crash.
In one embodiment according to the present invention, the vehicle front-part structure may comprise a rear-part constraint device which has: a projection which is provided on one of the rear end-face of the hood framework and the vehicle upper framework member; and a recess which is provided on the other of the rear end-face of the hood framework and the vehicle upper framework member, and the hood framework and the vehicle upper framework member may be able to constrain each other by accommodating the projection in the recess. According to this embodiment, the hood framework and the vehicle upper framework member are constrained by the rear-part constraint device, so that occurrence, in which relative position displacement is generated between the hood framework and the vehicle upper framework member and these members miss each other to obstruct the load transmission, can be avoided when in the front crash of the vehicle. With respect to timing at which the hood framework and the vehicle upper framework member are constrained by the rear-part constraint device, it is sufficient that these members are constrained at the time of crash, and these members may also be constrained during the time except for the crash.
In one embodiment according to the present invention, the vehicle front-part structure may comprise a coupling device which has a retaining member provided on one of an intermediate portion of the hood framework and the suspension tower, and the hood framework and the suspension tower may be able to be coupled to each other by engaging the retaining member with the other of the intermediate portion of the hood framework and the suspension tower. According to this embodiment, a connection point is formed between the suspension tower and the intermediate portion of the hood framework by the retaining member. Therefore, the number of connection points between the vehicle and the hood (including hood framework) is increased, so that the generation of the bending moment can be suppressed in the hood and the hood framework to thereby efficiently transmit the crash load in the front crash.
As described above, according to the present invention, since the hood framework of which at least a part of the front end-face faces the radiator support upper while at least a part of the rear end-face faces the vehicle upper framework member is included, the crash load when in the crash can be received even in the upper portion of the vehicle front.
The radiator support sides 4 are connected to the apron upper members 2, respectively. A dash panel 8 which partitions an engine room 1A and a cabin 1B of the vehicle 1 is provided to the rearward of the vehicle further than the radiator support upper 5, and both sides of the dash panel 8 in the vehicle width direction are joined to the apron upper members 2 and 2 by joining means such as welding. A cowl 9 which extends in the vehicle width direction in a lower end 10a of a wind shield 10 is provided forward of the vehicle further than the dash panel 8, and both sides of the cowl 9 are joined to the apron upper members 2 and 2 by the joining means such as the welding such that the cowl 9 and the dash panel 8 are arranged side by side in the vehicle lengthwise direction. A suspension tower 11 which supports the suspension (not shown) is coupled to each apron upper member 2 in an integrally molding manner.
The vehicle 1 has a pair of front side members 12 and 12, which is of a vehicle constituting member, inside the pair of apron upper members 2 and 2 in the vehicle width direction, and a bumper reinforcement 13 is attached to the front ends of the front side members 12 and 12 through a pair of crash boxes 14 and 14.
As shown in
As also shown in
Since the vehicle 1 has the above front-part structure, when the crash load is applied to the vehicle front part due to the front crash of the vehicle 1, as shown by an arrow F in
Further, as shown in
A hook (retaining device) 45 is provided on each suspension tower 11. When the engine room 1A is closed with the hood 15, the hook 45 is engaged with the intermediate portion of each hood framework 21 to thereby couple each hood framework 21 and each suspension tower 11, and thus, the hook 45 serves as the joining device or means of the present invention.
As described above, when in the front crash of the vehicle 1, the relative position displacement between each hood framework 21 and the radiator support upper 5 and the relative position displacement between each hood framework 21 and the cowl 9 are prevented, respectively, so that the state in which these members miss one another so as to obstruct the load transmission can be avoided. A connection point is formed between the intermediate portion of each hood framework 21 and each suspension tower 11 by the hook 45 to thereby increase the number of connection points between the vehicle 1 and the hood 15 (including each hood framework 21), so that, when in the front crash, the generation of the bending moment in the hood 15 and each hood framework 21 is to be suppressed, and thus, the crash load can efficiently be transmitted.
Each of the front-side pins 41 may be provided on the front end-face 21a of each hood framework 21, and each of the rear-side pins 43 may be provided on the rear end-face 21b of each hood framework 21. Correspondingly, the front-side holes 42 and the rear-side holes 44 may be provided on the radiator support upper 5 and the cowl 9, respectively. In the embodiment of
Claims
1. A vehicle front-part structure comprising:
- a radiator support upper which extends in a vehicle width direction in a vehicle front;
- a vehicle upper framework member which is coupled to an apron upper member provided on a side in the vehicle width direction and extending in a vehicle lengthwise direction, and which is located to rearward of the vehicle further than the radiator support upper; and
- a hood framework which constitutes a part of the hood framework member, the hood framework extending in the vehicle lengthwise direction, the hood framework being disposed between the radiator support upper and the vehicle upper framework member such that at least a part of a front end-face faces the radiator support upper and at least a part of a rear end-face faces the vehicle upper framework member.
2. The vehicle front-part structure according to claim 1, wherein the vehicle upper framework member is a cowl extending in the vehicle width direction at a lower end of a wind shield.
3. The vehicle front-part structure according to claim 1, wherein the vehicle upper framework member is a suspension tower.
4. The vehicle front-part structure according to claim 3, wherein a load transmission member is provided between the suspension tower and a cowl extending in the vehicle width direction at a lower end of a wind shield.
5. The vehicle front-part structure according to claim 1, comprising a front-part constraint device which has:
- a projection which is provided on one of the front end-face of the hood framework and the radiator support upper; and
- a recess which is provided on the other of the front end-face of the hood framework and the radiator support upper,
- wherein the hood framework and the radiator support upper are able to constrain each other by accommodating the projection in the recess.
6. The vehicle front-part structure according to claim 1, comprising a rear-part constraint device which has:
- a projection which is provided on one of the rear end-face of the hood framework and the vehicle upper framework member; and
- a recess which is provided on the other of the rear end-face of the hood framework and the vehicle upper framework member,
- wherein the hood framework and the vehicle upper framework member are able to constrain each other by accommodating the projection in the recess.
7. The vehicle front-part structure according to claim 1, comprising a coupling device which has a retaining member provided on one of an intermediate portion of the hood framework and the suspension tower, wherein the hood framework and the suspension tower are able to be coupled to each other by engaging the retaining member with the other of the intermediate portion of the hood framework and the suspension tower.
Type: Application
Filed: Feb 1, 2006
Publication Date: Aug 14, 2008
Patent Grant number: 8096611
Inventors: Hiroto Maruyama ( Aichi-ken), Kazuhiro Seki (Aichi-ken)
Application Number: 11/883,629